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a = side leg a b = side leg b c = hypotenuse A = area What is the Pythagorean Theorem?The Pythagorean Theorem states that the sum of the squared sides of a right triangle equals the length of the hypotenuse squared. You might recognize this theorem in the form of the Pythagorean equation: \[ a^{2} + b^{2} = c^{2} \]If you know the length of any 2 sides of a right triangle you can use the Pythagorean equation formula to find the length of the third side. Calculator UseThis calculator solves the Pythagorean Theorem equation for sides a or b, or the hypotenuse c. The hypotenuse is the side of the triangle opposite the right angle. For right triangles only, enter any two values to find the third. See the solution with steps using the Pythagorean Theorem formula. This calculator also finds the area A of the right triangle with sides a and b. The formula for area of a right triangle is: Pythagorean Theorem FormulaUsing the Pythagorean Theorem formula for right triangles you can find the length of the third side if you know the length of any two other sides. Read below to see solution formulas derived from the Pythagorean Theorem formula: \[ a^{2} + b^{2} = c^{2} \]Solve for the Length of the Hypotenuse cThe length of the hypotenuse is the square root of the sum of the sides squared. \[ c = \sqrt{a^{2} + b^{2}} \]Solve for Length of Side aThe length of side a is the square root of the squared hypotenuse minus the square of side b. \[ a = \sqrt{c^{2} - b^{2}} \]Solve for the Length of Side bThe length of side b is the square root of the squared hypotenuse minus the square of side a. Solve for Area A of the Right TriangleThe area of a right triangle is side a multiplied by side b divided by 2. \[ A = \dfrac {ab}{2} \]What are Pythagorean Triples?A Pythagorean triple is a set of 3 positive integers for sides a and b and hypotenuse c that satisfy the Pythagorean Theorem formula a2 + b2 = c2 The smallest known Pythagorean triple is 3, 4, and 5. Showing the work: \[ a^{2} + b^{2} = c^{2} \] \[ 3^{2} + 4^{2} = 5^{2} \] \[ 9 + 16 = 25 \] \[ 25 = 25 \]References:Weisstein, Eric W. "Pythagorean Theorem" From MathWorld--A Wolfram Web Resource. Pythagorean Theorem. Wikipedia "Pythagorean Theorem" at https://en.wikipedia.org/wiki/Pythagorean_theorem last accessed May 4, 2020.
The Pythagoras theorem which is also referred to as the Pythagorean theorem explains the relationship between the three sides of a right-angled triangle. According to the Pythagoras theorem, the square of the hypotenuse is equal to the sum of the squares of the other two sides of a triangle. Let us learn more about the Pythagoras theorem, its derivations, and equations followed by solved examples on the Pythagoras theorem triangle and squares. What is the Pythagoras Theorem?The Pythagoras theorem states that if a triangle is right-angled (90 degrees), then the square of the hypotenuse is equal to the sum of the squares of the other two sides. Observe the following triangle ABC, in which we have BC2 = AB2 + AC2. Here, AB is the base, AC is the altitude (height), and BC is the hypotenuse. It is to be noted that the hypotenuse is the longest side of a right-angled triangle. Pythagoras Theorem EquationThe Pythagoras theorem equation is expressed as, c2 = a2 + b2, where 'c' = hypotenuse of the right triangle and 'a' and 'b' are the other two legs. Hence, any triangle with one angle equal to 90 degrees produces a Pythagoras triangle and the Pythagoras equation can be applied in the triangle. History of Pythagoras TheoremPythagoras theorem was introduced by the Greek Mathematician Pythagoras of Samos. He was an ancient Ionian Greek philosopher. He formed a group of mathematicians who works religiously on numbers and lived like monks. Finally, the Greek Mathematician stated the theorem hence it was named after him as the "Pythagoras theorem." Though it was introduced many centuries ago its application in the current era is obligatory to deal with pragmatic situations. Although Pythagoras introduced and popularised the theorem, there is sufficient evidence proving its existence in other civilizations, 1000 years before Pythagoras was born. The oldest known evidence dates back to between 20th to 16th Century B.C in the Old Babylonian Period. Pythagorean Theorem FormulaThe Pythagoras theorem formula states that in a right triangle ABC, the square of the hypotenuse is equal to the sum of the square of the other two legs. If AB and AC are the sides and BC is the hypotenuse of the triangle, then: BC2 = AB2 + AC2. In this case, AB is the base, AC is the altitude or the height, and BC is the hypotenuse. Another way to understand the Pythagorean theorem formula is using the following figure which shows that the area of the square formed by the longest side of the right triangle (the hypotenuse) is equal to the sum of the area of the squares formed by the other two sides of the right triangle. In a right-angled triangle, the Pythagoras Theorem Formula is expressed as: c2 = a2 + b2 Where,
Pythagoras Theorem ProofPythagoras theorem can be proved in many ways. Some of the most common and widely used methods are the algebraic method and the similar triangles method. Let us have a look at both these methods individually in order to understand the proof of this theorem. Proof of Pythagorean Theorem Formula using the Algebraic MethodThe proof of the Pythagoras theorem can be derived using the algebraic method. For example, let us use the values a, b, and c as shown in the following figure and follow the steps given below:
Pythagorean Theorem Formula Proof using Similar TrianglesTwo triangles are said to be similar if their corresponding angles are of equal measure and their corresponding sides are in the same ratio. Also, if the angles are of the same measure, then by using the sine law, we can say that the corresponding sides will also be in the same ratio. Hence, corresponding angles in similar triangles lead us to equal ratios of side lengths. Derivation of Pythagorean Theorem FormulaConsider a right-angled triangle ABC, right-angled at B. Draw a perpendicular BD meeting AC at D. In △ABD and △ACB,
Thus, △ABD ∼ △ACB (by AA similarity criterion) Similarly, we can prove △BCD ∼ △ACB. Thus △ABD ∼ △ACB, Therefore, AD/AB = AB/AC. We can say that AD × AC = AB2. Similarly, △BCD ∼ △ACB. Therefore,CD/BC = BC/AC. We can also say that CD × AC = BC2. Adding these 2 equations, we get AB2 + BC2 = (AD × AC) + (CD × AC) AB2 + BC2 =AC(AD +DC) AB2 + BC2 =AC2 Hence proved. Pythagoras Theorem TrianglesRight triangles follow the rule of the Pythagoras theorem and they are called Pythagoras theorem triangles. The three sides of such a triangle are collectively called Pythagoras triples. All the Pythagoras theorem triangles follow the Pythagoras theorem which says that the square of the hypotenuse is equal to the sum of the two sides of the right-angled triangle. This can be expressed as c2 = a2 + b2; where 'c' is the hypotenuse and 'a' and 'b' are the two legs of the triangle. Pythagoras Theorem SquaresAs per the Pythagorean theorem, the area of the square which is built upon the hypotenuse of a right triangle is equal to the sum of the area of the squares built upon the other two sides. These squares are known as Pythagoras squares. Applications of Pythagoras TheoremThe applications of the Pythagoras theorem can be seen in our day-to-day life. Here are some of the applications of the Pythagoras theorem.
Most architects use the technique of the Pythagorean theorem to find the unknown dimensions. When length or breadth are known it is very easy to calculate the diameter of a particular sector. It is mainly used in two dimensions in engineering fields.
The face recognition feature in security cameras uses the concept of the Pythagorean theorem, that is, the distance between the security camera and the location of the person is noted and well-projected through the lens using the concept.
The Pythagoras concept is applied in interior designing and the architecture of houses and buildings. People traveling in the sea use this technique to find the shortest distance and route to proceed to their concerned places. ☛ Related Articles
Example 2: Julie wanted to wash her building window which is 12 feet off the ground. She has a ladder that is 13 feet long. How far should she place the base of the ladder away from the building? Solution: We can visualize this scenario as a right triangle. We need to find the base of the right triangle formed. We know that, Hypotenuse2 = Base2 + Height2. Thus, we can say that b2 = 132 - 122 where 'b' is the distance of the base of the ladder from the feet of the wall of the building. So, b2 = 132 - 122 can be solved as, b2 = 169 - 144 = 25. This means, b = √25 = 5. Hence, we get 'b' = 5. Therefore, the base of the ladder is 5 feet away from the building.
Example 3: Use the Pythagoras theorem to find the hypotenuse of the triangle in which the sides are 8 units and 6 units respectively. Solution: Using the Pythagoras theorem, Hypotenuse2 = Base2 + Height2 = 82 + 62. This leads to Hypotenuse2 = 64 + 36 = 100. Therefore, hypotenuse = √100 = 10 units. Therefore, the length of the hypotenuse is 10 units. go to slidego to slidego to slide
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FAQs on Pythagoras TheoremThe Pythagoras theorem states that in a right-angled triangle, the square of the hypotenuse is equal to the sum of the squares of the other two sides. This theorem can be expressed as, c2 = a2 + b2; where 'c' is the hypotenuse and 'a' and 'b' are the two legs of the triangle. These triangles are also known as Pythagoras theorem triangles. What is the Converse of Pythagoras Theorem?The converse of Pythagoras theorem is: If the sum of the squares of any two sides of a triangle is equal to the square to the third (largest) side, then it is said to be a right-angled triangle. What is the Use of the Pythagorean Theorem Formula?The Pythagoras theorem works only for right-angled triangles. When any two values are known, we can apply the Pythagoras theorem and calculate the unknown sides of the triangle. There are other real-life applications of the Pythagoras theorem like in the field of engineering and architecture. What are the Applications of the Pythagorean Theorem in Real Life?The Pythagorean theorem is used in various fields. A few of its applications are given below.
Can the Pythagorean Theorem Formula be Applied to any Triangle?No, the Pythagorean theorem can only be applied to a right-angled triangle since the Pythagorean theorem expresses the relationship between the sides of the triangle where the square of the two legs is equal to the square of the third side which is the hypotenuse. How to Work Out Pythagoras Theorem?Pythagoras theorem can be used to find the unknown side of a right-angled triangle. For example, if two legs of a right-angled triangle are given as 4 units and 6 units, then the hypotenuse (the third side) can be calculated using the formula, c2 = a2 + b2; where 'c' is the hypotenuse and 'a' and 'b' are the two legs. Substituting the values in the formula, c2 = a2 + b2 = c2 = 42 + 62 = 16 + 36 = √52 = 7.2 units. What is the Formula of Pythagoras Theorem?The formula of Pythagoras theorem is expressed as, Hypotenuse2 = Base2 + Height2. This is also written as, c2 = a2 + b2; where 'c' is the hypotenuse and 'a' and 'b' are the two legs of the right-angled triangle. Using the Pythagoras theorem formula, any unknown side of a right-angled can be calculated if the other two sides are given. Why is the Pythagoras Theorem Important?The Pythagoras theorem is important because it helps in calculating the unknown side of a right-angled triangle. It has other real-life applications in the field of architecture and engineering, navigation, and so on. |